G-protein-coupled receptors (GPCR) are seven transmembrane proteins that convert extracellular stimuli to cell signaling.Viral genes homologous to cellular GPCR have been described in the genome of ... [more ▼]

G-protein-coupled receptors (GPCR) are seven transmembrane proteins that convert extracellular stimuli to cell signaling.Viral genes homologous to cellular GPCR have been described in the genome of Betaherpesvirinae, Gammaherpesvirinae and Poxviridae. The goal of this review is to summarize the knowledge available on viral GPCR (vGPCR) with a special interest for their roles in the biology and the pathogenesis of the infection. This review highlights some properties of vGPCR that are not shared by their cellular homologues and stresses the diversity of their functions in the biology of the infection. [less ▲]

Varicella-zoster virus is a Herpesvirus responsible for three distinct clinical features : chicken pox (varicella), shingles (herpes zoster) and post-zosterian pain (post-herpetic neuralgia). Neurological aspects of these diseases such as complications of chicken pox, viral latency in sensory gan-glia and reactivation as shingles with concurrent and at times subsequent prolonged pain, are the sequels of the invasion of the peripheral nervous system during primary infection. Prevention is achieved by vaccination with a live attenuated virus strain and therapy calls for specific antiviral agents. In many respects, VZV behaves differently from close relatives. In particular, viral latency in the nervous system is quite different from that of other Herpesviri-dae. The recent discovery of the expression and accumulation of some viral regulatory proteins during latency, although VZV latency had always been considered silent, as well as the demonstration that these proteins are immu-nogenic are opening new avenues to investigate the mechanisms of VZV latency and the immune control of VZV reactivation. [less ▲]